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如何將筆跡筆觸轉換成文字 (HTML)

[ 本文的目標對象是撰寫 Windows 執行階段 App 的 Windows 8.x 和 Windows Phone 8.x 開發人員。如果您正在開發適用於 Windows 10 的 App,請參閱 最新文件 ]

了解如何在使用 JavaScript 的 Windows 市集應用程式中使用手寫辨識功能以及將筆跡筆觸轉換成文字。

Windows 8.1 的更新: Windows 8.1 對指標輸入 API 引入了數種更新及改進。如需詳細資訊,請參閱 Windows 8.1 的 API 變更

針對這個範例,我們使用 InkManager 物件的內建辨識功能 (RecognizeAsync),將所有筆跡筆觸轉換成文字,並將結果儲存於管理員中。

如果不需要辨識,請使用 InkStrokeContainer 物件,而不是 InkManager。 先前的辨識結果仍可以透過 GetRecognitionResults 來使用。

如果只需要辨識,而不必儲存,請使用 InkRecognizerContainer,而不是 InkManager

您必須知道的事

技術

先決條件

此做法是以快速入門:擷取筆跡資料為基礎。

我們假設您可以利用 JavaScript,以適用於 JavaScript 的 Windows Library 範本來建立基本的 Windows 市集應用程式。

指示

步驟 1: 建立筆跡管理員

把將處理及操作從指標輸入取得之筆跡相關資料的 InkManager 物件初始化。

        // Create an ink manager.
        // InkManager is documented at https://go.microsoft.com/fwlink/?LinkID=260648.
        var inkManager = new Windows.UI.Input.Inking.InkManager();

步驟 2: 設定辨識的預設語言

設定預設的辨識器語言。Windows 8 的每個語言套件都包含一組相關的辨識語言。如需有效辨識語言的詳細資訊,請參閱 Name

如果您未設定預設語言,系統會根據 [語言] 控制台中識別的主要語言選取一個語言。如果主要語言不包含辨識語言,系統會使用其中一個次要語言或 EN-US。

注意  

 

以下是如何將預設語言設定為 Microsoft 英文 (US) 手寫辨識器。

// Set default recognition language.
if (!setRecognizerByName("Microsoft English (US) Handwriting Recognizer")) {
    statusMessage.innerText += "\nRecognition: Failed to find English (US) recognizer.";
}
else {
    statusMessage.innerText += "\nRecognition: English (US) recognizer.";
}

使用 GetRecognizers 在使用者的系統上抓取可用的辨識語言。逐一查看這份清單,如果找到所需的語言,則呼叫 SetDefaultRecognizer。如果找不到所需的語言,就會顯示錯誤,並改用系統預設值。

/// <summary>
/// Finds a specific recognizer, and sets the inkManager's default to that recognizer.
/// Returns true if successful.
/// </summary>
/// <param name="recognizerName">The name of the handwriting recognizer.</param>
function setRecognizerByName(recognizerName) {
    try {
        // recognizers is a normal JavaScript array
        var recognizers = inkManager.getRecognizers();
        for (var i = 0, len = recognizers.length; i < len; i++) {
            if (recognizerName === recognizers[i].name) {
                inkManager.setDefaultRecognizer(recognizers[i]);
                return true;
            }
        }
    }
    catch (e) {
        displayError("setRecognizerByName: " + e.toString());
    }
    return false;
}

步驟 3: 啟用辨識功能

提供一種讓使用者初始化辨識功能的方法。

首先,請宣告一組模式按鈕。

<body>
<div id="applicationTitle">Ink sample</div>
<div>
    <canvas id="inkCanvas"></canvas>
    <div>
        <button id="load">Load</button>
        <button id="save">Save</button>
        <button id="draw">Draw</button>
        <button id="select">Select</button>
        <button id="selectall">Select all</button>
        <button id="erase">Erase</button>
        <button id="eraseAll">Erase all</button>
        <button id="recognize" value="selected">Handwriting recognition</button>
    </div>
</div>
<div id="modeMessage"></div>
<div id="deviceMessage"></div>
<div id="statusMessage"></div>
</body>

然後,宣告事件接聽程式。

get("recognize").addEventListener("click", recognizeStrokes, false);

步驟 4: 處理所有筆觸

最後,您要處理辨識要求,並透過辨識引擎處理筆跡管理員所管理的所有筆觸。

為了簡化起見,這個範例會指定 allInkRecognitionTarget 處理所有筆觸。指定 recentInkRecognitionTarget,只會處理自從上次呼叫 RecognizeAsync 之後新增的筆觸。這通常在某些情況下非常實用,例如將所有筆觸視為手寫,且需要根據 pointerup 這類事件而非使用者命令動態識別時。使用 selected 只處理選取的筆觸。

/// <summary>
/// Invoked when the "Handwriting recognition" button is pressed.
/// The ink manager processes all strokes through recognizeAsync, which returns 
/// the number of words detected and a set of recognition results for each word. 
/// </summary>
/// <param name="evt">The event object.</param>
function recognizeStrokes(evt) {

    // Ensure ink strokes exist before calling recognizeAsync.
    if (inkManager.getStrokes().length > 0) {
        // recognizeAsync fails if other recognition tasks are in progress.
        try {
            // The ink manager is used to store the recognition results.
            // recognizeAsync has 3 modes: all | selected | recent.
            // For this example, we process all strokes.
            // recognizeAsync is documented at https://go.microsoft.com/fwlink/?LinkID=265172.
            inkManager.recognizeAsync(Windows.UI.Input.Inking.InkRecognitionTarget.all).done
            (
                // The recognitionResult object returned by recognizeAsync exposes the 
                // bounding rect, strokes, and text candidates for each word. 
                // In this example, we simply display the word count and recognition results.
                function (results) {
                    // recognizeAsync does not automatically update existing recognition results in the ink manager.
                    // updateRecognitionResults is documented at https://go.microsoft.com/fwlink/?LinkID=265175.
                    inkManager.updateRecognitionResults(results);

                    var x = inkManager.getRecognizers();

                    // Display the number of words returned in results.
                    statusMessage.innerText = "Words recognized: " + results.length.toString();

                    // Iterate through each word and display the ranked list of possible matches.
                    for (var i = 0; i < results.length; i++) {
                        statusMessage.innerText += "\nWord" + (i+1).toString() + ":";
                        var alts = results[i].getTextCandidates();
                        for (var j = 0; j < alts.length; j++) {
                            statusMessage.innerText += " " + alts[j].toString();
                        }
                    }
                },
                function (e) {
                    displayError("InkManager::recognizeAsync: " + e.toString());
                }
            );
        }
        catch (e) {
            displayError("recognize: " + e.toString());
        }
    }
    else {
        statusMessage.innerText = "No strokes to recognize.";
    }
}

請參閱輸入:筆跡範例,以取得如何使用透過 RecognizeAsync 傳回的 InkRecognitionResult 物件集合公開的每個字詞之週框矩形和候選文字範例。 完成辨識之後,點選字詞就會在與該字詞相鄰的飛出視窗中顯示可選取的候選文字清單。

完整範例

//// THIS CODE AND INFORMATION IS PROVIDED "AS IS" WITHOUT WARRANTY OF
//// ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING BUT NOT LIMITED TO
//// THE IMPLIED WARRANTIES OF MERCHANTABILITY AND/OR FITNESS FOR A
//// PARTICULAR PURPOSE.
////
//// Copyright (c) Microsoft Corporation. All rights reserved

// Windows Store app that demonstrates the use of the Windows.UI.Input.Inking APIs.

// Ink functionality is documented at https://go.microsoft.com/fwlink/?LinkID=260649.
// User interaction functionality is documented at https://go.microsoft.com/fwlink/?LinkID=260650.
// Ink APIs are documented at https://go.microsoft.com/fwlink/?LinkID=260652.
// Pointer APIs are documented at https://go.microsoft.com/fwlink/?LinkID=260653.

(function ()
{
    "use strict";

    //
    // Global variables
    //

        // UI object references.
        var inkCanvas;
        var inkContext;
        var modeMessage;
        var deviceMessage
        var statusMessage;

        // Create an ink manager.
        // InkManager is documented at https://go.microsoft.com/fwlink/?LinkID=260648.
        var inkManager = new Windows.UI.Input.Inking.InkManager();

        // Initial pointer values.
        var pointerId = -1;
        var pointerDeviceType = null;

        // Initial stroke property values.
        var strokeColor;
        var strokeWidth;

    //
    // End global variables
    //

    // Obtain reference to the specified element.
    function get(elementId)
    {
        return document.getElementById(elementId);
    }

    function initialize()
    {
        // Set up the UI.
        inkCanvas = get("inkCanvas");
        inkContext = inkCanvas.getContext("2d");

        inkContext.lineCap = "round";
        inkContext.lineKJoin = "round";

        inkCanvas.width = window.innerWidth - 10;
        inkCanvas.height = window.innerHeight * 0.5;

        deviceMessage = get("deviceMessage");
        deviceMessage.innerText = "Undefined";
        modeMessage = get("modeMessage");
        modeMessage.innerText = inkManager.mode;
        statusMessage = get("statusMessage");
        statusMessage.innerText = "No pointer input detected."

        // Set initial ink mode.
        drawStrokes();

        // Set default recognition language.
        if (!setRecognizerByName("Microsoft English (US) Handwriting Recognizer")) {
            statusMessage.innerText += "\nRecognition: Failed to find English (US) recognizer.";
        }
        else {
            statusMessage.innerText += "\nRecognition: English (US) recognizer.";
        }

        // Set up the handlers for input processing.
        inkCanvas.addEventListener("pointerdown", onPointerDown, false);
        inkCanvas.addEventListener("pointermove", onPointerMove, false);
        inkCanvas.addEventListener("pointerup", onPointerUp, false);

        get("save").addEventListener("click", saveStrokes, false);
        get("load").addEventListener("click", loadStrokes, false);
        get("draw").addEventListener("click", drawStrokes, false);
        get("select").addEventListener("click", selectStrokes, false);
        get("selectall").addEventListener("click", selectAllStrokes, false);
        get("erase").addEventListener("click", eraseStrokes, false);
        get("eraseAll").addEventListener("click", eraseAllStrokes, false);
        get("recognize").addEventListener("click", recognizeStrokes, false);
    }
    document.addEventListener("DOMContentLoaded", initialize, false);

    function getPointerDeviceType(pId)
    {
        var pointerDeviceType;
        var pointerPoint = Windows.UI.Input.PointerPoint.getCurrentPoint(pId);
        switch (pointerPoint.pointerDevice.pointerDeviceType)
        {
            case Windows.Devices.Input.PointerDeviceType.touch:
                pointerDeviceType = "Touch";
                break;

            case Windows.Devices.Input.PointerDeviceType.pen:
                pointerDeviceType = "Pen";
                break;

            case Windows.Devices.Input.PointerDeviceType.mouse:
                pointerDeviceType = "Mouse";
                break;
            default:
                pointerDeviceType = "Undefined";
        }
        deviceMessage.innerText = pointerDeviceType;
        return pointerDeviceType;
    }

    // Occurs when the pointer (touch, pen, mouse) is detected by the canvas.
    // Each stroke begins with onPointerDown.
    function onPointerDown(evt)
    {
        // Get the device type for the pointer input.
        pointerDeviceType = getPointerDeviceType(evt.pointerId);

        // Process pen and mouse (with left button) only. Reserve touch for manipulations.
        if ((pointerDeviceType === "Pen") || ((pointerDeviceType === "Mouse") && (evt.button === 0)))
        {
            statusMessage.innerText = pointerDeviceType + " pointer down: Start stroke. "

            // Process one pointer at a time.
            if (pointerId === -1)
            {
                var current = evt.currentPoint;

                // Start drawing the stroke.
                inkContext.beginPath();
                inkContext.lineWidth = strokeWidth;
                inkContext.strokeStyle = strokeColor;

                inkContext.moveTo(current.position.x, current.position.y);

                // Add current pointer to the ink manager (begin stroke).
                inkManager.processPointerDown(current);

                // The pointer id is used to restrict input processing to the current stroke.
                pointerId = evt.pointerId;
            }
        }
        else
        {
            // Process touch input.
        }
    }

    // Mouse: Occurs when the pointer moves.
    // Pen/Touch: Occurs at a steady rate (approx. 100 messages/second) whether the pointer moves or not.
    function onPointerMove(evt)
    {
        // Process pen and mouse (with left button) only. Reserve touch for manipulations.
        if ((pointerDeviceType === "Pen") || ((pointerDeviceType === "Mouse") && (evt.button === -1)))
        {
            statusMessage.innerText = pointerDeviceType + " pointer move: Draw stroke as lines. "
            // The pointer Id is used to restrict input processing to the current stroke.
            // pointerId is updated in onPointerDown().
            if (evt.pointerId === pointerId)
            {
                var current = evt.currentPoint;

                // Draw stroke in real time.
                inkContext.lineTo(current.rawPosition.x, current.rawPosition.y);
                inkContext.stroke();

                // Add current pointer to the ink manager (update stroke).
                inkManager.processPointerUpdate(current);
            }
        }
        else
        {
            // Process touch input.
        }
    }

    // Occurs when the pointer (touch, pen, mouse) is lifted from the canvas.
    // Each stroke ends with onPointerUp.
    function onPointerUp(evt)
    {
        // Process pen and mouse (with left button) only. Reserve touch for manipulations.
        if ((pointerDeviceType === "Pen") || ((pointerDeviceType === "Mouse") && (evt.button === 0)))
        {
            statusMessage.innerText = pointerDeviceType + " pointer up: Finish stroke. "
            if (evt.pointerId === pointerId) {
                // Add current pointer to the ink manager (end stroke).
                inkManager.processPointerUp(evt.currentPoint);

                // End live drawing.
                inkContext.closePath();

                // Render strokes using bezier curves.
                renderAllStrokes();

                // Reset pointer Id.
                pointerId = -1;
            }
        }
        else
        {
            // Process touch input.
        }
    }

    // Render all strokes using bezier curves instead of line segments.
    function renderAllStrokes()
    {
        statusMessage.innerText += "Render strokes as bezier curves."

        // Clear the drawing surface of existing strokes.
        inkContext.clearRect(0, 0, inkCanvas.width, inkCanvas.height);

        // Iterate through each stroke.
        inkManager.getStrokes().forEach(
            function (stroke)
            {
                inkContext.beginPath();
                if (stroke.selected) {
                    inkContext.lineWidth = stroke.drawingAttributes.size.width * 2;
                    inkContext.strokeStyle = "green";
                } else {
                    inkContext.lineWidth = stroke.drawingAttributes.size.width;
                    inkContext.strokeStyle = "black";
                }

                // Enumerate through each line segment of the stroke.
                var first = true;

                stroke.getRenderingSegments().forEach(
                    function (segment)
                    {
                        // Move to the starting screen location of the stroke.
                        if (first)
                        {
                            inkContext.moveTo(segment.position.x, segment.position.y);
                            first = false;
                        }
                        // Calculate the bezier curve for the segment.
                        else
                        {
                            inkContext.bezierCurveTo(segment.bezierControlPoint1.x,
                                                     segment.bezierControlPoint1.y,
                                                     segment.bezierControlPoint2.x,
                                                     segment.bezierControlPoint2.y,
                                                     segment.position.x, segment.position.y);
                        }
                    }
                );
                
                // Draw the stroke.
                inkContext.stroke();
                inkContext.closePath();
            }
        );
    }

    // Set up draw mode.
    function drawStrokes() {
        inkManager.mode = Windows.UI.Input.Inking.InkManipulationMode.inking;
        strokeColor = "black";
        strokeWidth = 2;
        modeMessage.innerText = inkManager.mode;
    }

    // Set up selection mode.
    function selectStrokes() {
        inkManager.mode = Windows.UI.Input.Inking.InkManipulationMode.selecting;
        strokeColor = "red";
        strokeWidth = 1;
        modeMessage.innerText = inkManager.mode;
    }

    // Set up erase mode.
    function eraseStrokes() {
        inkManager.mode = Windows.UI.Input.Inking.InkManipulationMode.erasing;
        strokeColor = "gold";
        strokeWidth = 1;
        modeMessage.innerText = inkManager.mode;
    }

    // Select all strokes handler.
    function selectAllStrokes() {
        inkManager.mode = Windows.UI.Input.Inking.InkManipulationMode.selecting;
        strokeColor = "red";
        strokeWidth = 1;
        modeMessage.innerText = "Select all strokes.";
        // Iterate through each stroke.
        inkManager.getStrokes().forEach(
            function (stroke) {
                stroke.selected = 1;
            }
            );
        renderAllStrokes();
    }

    // Select all strokes handler.
    function eraseAllStrokes() {
        inkManager.mode = Windows.UI.Input.Inking.InkManipulationMode.inking;
        strokeColor = "black";
        strokeWidth = 2;
        modeMessage.innerText = "Erase all strokes.";
        // Iterate through each stroke.
        inkManager.getStrokes().forEach(
            function (stroke) {
                stroke.selected = 1;
            }
            );
        inkManager.deleteSelected();
        renderAllStrokes();
    }

    // Save all strokes owned by inkManager.
    function saveStrokes()
    {
        // Ensure that strokes exist before calling saveAsync.
        if (inkManager.getStrokes().size > 0)
        {
            // Set up the file save screen.
            var savePicker = Windows.Storage.Pickers.FileSavePicker();
            savePicker.suggestedStartLocation = Windows.Storage.Pickers.PickerLocationId.picturesLibrary;
            savePicker.fileTypeChoices.insert("GIF with embedded ISF", [".gif"]);
            savePicker.defaultFileExtension = ".gif";

            // Set up the stream.
            var saveStream = null;

            // Asynchronously save the ink data to the stream.
            savePicker.pickSaveFileAsync().done(
            function (file)
            {
                if (null !== file)
                {
                    file.openAsync(Windows.Storage.FileAccessMode.readWrite).then(
                        function (stream)
                        {
                            saveStream = stream;
                            return inkManager.saveAsync(saveStream);
                        }
                    ).then(
                        function ()
                        {
                            return saveStream.flushAsync(); 
                        },
                        function (e) {
                            // Override the standard saveAsync error with our own.
                            throw new Error("saveAsync");
                        }
                    ).done(
                        function ()
                        {
                            statusMessage.innerText = "Strokes saved as GIF with embedded ISF (.gif).";
                            saveStream.close();
                        },
                        function (e) {
                            statusMessage.innerText = "Save: " + e.toString();
                            // Close the stream if open.
                            if (saveStream) {
                                saveStream.close();
                            }
                        }
                    );
                }
            }
        );
        }
        else
        {
            statusMessage.innerText = "No strokes to save.";
        }
    }

    // Load strokes into an inkManager.
    function loadStrokes()
    {
        // Set up the file open screen.
        var openPicker = Windows.Storage.Pickers.FileOpenPicker();
        openPicker.suggestedStartLocation = Windows.Storage.Pickers.PickerLocationId.picturesLibrary;
        openPicker.fileTypeFilter.replaceAll([".gif"]);

        // Set up the stream.
        var loadStream = null;

        // Asynchronously load the ink data from the stream.
        openPicker.pickSingleFileAsync().done(
            function (file)
            {
                if (null != file)
                {
                    file.openAsync(Windows.Storage.FileAccessMode.read).then(
                        function (stream) {
                            loadStream = stream;
                            return inkManager.loadAsync(loadStream);
                        }).done(
                            function()
                            {
                                var strokes = inkManager.getStrokes().length;
                                if (strokes === 0)
                                {
                                    statusMessage.innerText = "No strokes in file.";
                                }
                                else
                                {
                                    statusMessage.innerText = strokes + " strokes loaded.";
                                }
                                renderAllStrokes();
                                loadStream.close();
                            },
                            function (e)
                            {
                                statusMessage.innerText = "Load failed.";
                                if (loadStream)
                                {
                                    // Close the stream if open.
                                    loadStream.close();
                                }
                            });
                }
            });
    }

    /// <summary>
    /// Finds a specific recognizer, and sets the inkManager's default to that recognizer.
    /// Returns true if successful.
    /// </summary>
    /// <param name="recognizerName">The name of the handwriting recognizer.</param>
    function setRecognizerByName(recognizerName) {
        try {
            // recognizers is a normal JavaScript array
            var recognizers = inkManager.getRecognizers();
            for (var i = 0, len = recognizers.length; i < len; i++) {
                if (recognizerName === recognizers[i].name) {
                    inkManager.setDefaultRecognizer(recognizers[i]);
                    return true;
                }
            }
        }
        catch (e) {
            displayError("setRecognizerByName: " + e.toString());
        }
        return false;
    }

    /// <summary>
    /// Invoked when the "Handwriting recognition" button is pressed.
    /// The ink manager processes all strokes through recognizeAsync, which returns 
    /// the number of words detected and a set of recognition results for each word. 
    /// </summary>
    /// <param name="evt">The event object.</param>
    function recognizeStrokes(evt) {

        // Ensure ink strokes exist before calling recognizeAsync.
        if (inkManager.getStrokes().length > 0) {
            // recognizeAsync fails if other recognition tasks are in progress.
            try {
                // The ink manager is used to store the recognition results.
                // recognizeAsync has 3 modes: all | selected | recent.
                // For this example, we process all strokes.
                // recognizeAsync is documented at https://go.microsoft.com/fwlink/?LinkID=265172.
                inkManager.recognizeAsync(Windows.UI.Input.Inking.InkRecognitionTarget.all).done
                (
                    // The recognitionResult object returned by recognizeAsync exposes the 
                    // bounding rect, strokes, and text candidates for each word. 
                    // In this example, we simply display the word count and recognition results.
                    function (results) {
                        // recognizeAsync does not automatically update existing recognition results in the ink manager.
                        // updateRecognitionResults is documented at https://go.microsoft.com/fwlink/?LinkID=265175.
                        inkManager.updateRecognitionResults(results);

                        var x = inkManager.getRecognizers();

                        // Display the number of words returned in results.
                        statusMessage.innerText = "Words recognized: " + results.length.toString();

                        // Iterate through each word and display the ranked list of possible matches.
                        for (var i = 0; i < results.length; i++) {
                            statusMessage.innerText += "\nWord" + (i+1).toString() + ":";
                            var alts = results[i].getTextCandidates();
                            for (var j = 0; j < alts.length; j++) {
                                statusMessage.innerText += " " + alts[j].toString();
                            }
                        }
                    },
                    function (e) {
                        displayError("InkManager::recognizeAsync: " + e.toString());
                    }
                );
            }
            catch (e) {
                displayError("recognize: " + e.toString());
            }
        }
        else {
            statusMessage.innerText = "No strokes to recognize.";
        }
    }

    // Returns true if any strokes inside the ink manager are selected; false otherwise.
    function anySelected() {
        var strokes = inkManager.getStrokes();
        var len = strokes.length;
        for (var i = 0; i < len; i++) {
            if (strokes[i].selected) {
                return true;
            }
        }
        return false;
    }



})();

相關主題

概念

回應畫筆和手寫筆輸入

快速入門:擷取筆跡資料

參考

Windows.Devices.Input

Windows.UI.Core

Windows.UI.Input

Windows.UI.Input.Inking

範例 (DOM)

輸入:DOM 指標事件處理範例

範例 (Windows 市集應用程式 API)

輸入:裝置功能範例

輸入:筆跡範例

輸入:簡化的筆跡範例